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Reduced Duration of Adjuvant FOLFOX in Stage III Colon Cancer - A Bright IDEA?
Erin Yeung, Pharm.D. PGY2 Oncology/Hematology Pharmacy Resident
South Texas Veterans Health Care System The University of Texas at Austin College of Pharmacy
The University of Texas Health Science Center at San Antonio August 25th, 2017
Objectives: 1. Describe the role of adjuvant chemotherapy in colon cancer2. List the adverse effects limiting adjuvant chemotherapy completion and advantages of reduced
duration of adjuvant chemotherapy in colon cancer3. Summarize current guideline recommendations and results of recent literature describing adjuvant
chemotherapy duration in colon cancer4. Recommend or refute reduced adjuvant chemotherapy duration in colon cancer
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Colorectal Cancer (CRC)
I. Epidemiology A. Incidence1-2
i. Third most common cancer with an estimated 1.2 million new cases per year ii. Estimated 95,520 new cases of colon cancer in the United States (US) per year
iii. Lifetime risk of developing CRC is approximately 1 in 21 men (4.7%) and 1 in 23 women (4.4%)
B. Prognosis1-3 i. Stage at diagnosis is the most important prognostic factor, with the following 5-year relative
survival estimates: a. Localized disease: 90.1% b. Regional tumor spread: 69.2% c. Distant tumor spread: 11.7%
ii. Despite curative resection, nearly half of all patients will die from metastatic disease originating from residual microscopic disease not evident at the time of surgery
C. Survival1-5 i. CRC is the third leading cause of cancer-related death in men and women in the US
ii. CRC is the fourth leading cause of cancer-related death globally with an expected 50,250 deaths from CRC in the US in 2017
iii. Five-year relative survival is nearly 65% in high-income countries, but remains less than 50% in low-income countries
iv. Incidence stabilization and death reduction likely due to improved screening and polyp removal in the US
D. Risk factors1-2,6-7 i. Older age – incidence strongly increases with age, with a median age of diagnosis of 70
years in developed countries ii. Male gender
iii. Race – incidence of CRC is 12.3% higher in African Americans compared to Caucasians iv. Family history of CRC or polyps - an estimated 35% of CRC risk may be contributed to
heritable factors v. Inflammatory bowel disease – chronic ulcerative colitis or Crohn’s colitis leading to dysplasia
and genetic mutations associated with cell injury or cell repair vi. Smoking – carcinogens found in cigarettes
vii. Excessive consumption of alcohol, red meat, and processed meat viii. Obesity – increased risk of CRC due to carcinogens found in unhealthy diets
ix. Diabetes – CRC is hypothesized to be linked with diabetes induced intestinal or colonic structural and biomechanical remodeling, leading to diabetes complications such as diarrhea, constipation, gastroparesis, and microbiotic changes
x. Infection – Helicobacter pylori, human papilloma virus, and JC virus have been associated with CRC due to disruption of microflora in the gut
xi. Geography a. The highest incidence of CRC is reported in Europe, North America, and Oceania,
with the lowest incidence reported in South Asia, Central Asia, and Africa b. Highly associated with “western diet” rich in saturated fats
II. Pathophysiology A. Polyps, or issue growths from the inner lining of the colon into the lumen, may be considered pre-
cancerous and transform into malignant growths
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i. Adenoma – carcinoma pathway1,3,8-10 a. Characterized by the slow development of dysplastic adenoma premalignant
lesions, often over more than 7 years b. Adenomas may be classified as tubular or villous c. Genetic mutations
1. Adenomatous polyposis coli (APC) – inactivated gene in more than 70% of colorectal adenomas leading to deactivation of tumor suppression
2. KRAS – activated oncogene in the adenoma-carcinoma sequence found in 50% of colon cancers that leads to colonocyte replication and reduces the efficacy of anti-EGFR monotherapy to nearly 0%
3. P53 – tumor suppressor gene that is inactive in the adenoma-carcinoma sequence
ii. Serrated adenoma – carcinoma pathway1,3,8-11 a. Characterized by moderate development of hyperplastic, sessile, often flat lesions
over approximately 3 to 5 years b. Characterized by high microsatellite instability (MSI-H), which is found in
approximately 15% of sporadic colon cancer c. Genetic mutations
1. BRAF – mutation almost exclusive to sporadic MSI-H type and therefore useful in tumor characterization
2. CpG island methylator phenotype (CIMP) – mutation leading to global genome hypermethylation, resulting in tumor suppressor gene inactivation
3. hMLH1 – DNA mismatch repair gene inactivated by DNA methylation d. MSI-H and wild type KRAS/BRAF status are associated with improved prognosis
B. Syndromic colon cancer1,3,9 i. Familial adenomatous polyposis (FAP)
a. Characterized by hundreds to thousands of adenomatous colonic polyps b. Transformation into carcinoma is inevitable without colectomy c. Caused by inherited single autosomal dominant mutation of the APC gene located
on chromosome 5q
http://www.hopkinscoloncancercenter.org/CMS/CMS_Page.aspx?CurrentUDV=59&CMS_Page_ID=EEA2CD91-3276-4123-BEEB-BAF1984D20C7 Figure 1. Progression from polyp to cancer
hyper- proliferation
small large
adenomatous polyps:
severe dysplasia (pre-cancerous
polyp)
adenocarcinoma
cancer
Benign Malignant
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ii. Hereditary nonpolyposis colon cancer (HNPCC) a. Characterized by few colonic polyps b. Genetic etiology associated with genetic mutations of mismatch repair genes c. Prevention of repairs to spontaneous DNA errors leads to progressively
accumulating mutations in oncogenes and tumor suppressor genes
III. Screening and prevention A. Screening1,12
i. American College of Gastroenterology – colonoscopy every 10 years beginning age 50 a. Screening in African Americans should begin at age 45 b. Earlier screening recommended in patients with increased risk of CRC
ii. CRC prevention alternatives should be offered when colonoscopy is not feasible a. Flexible sigmoidoscopy every 5 to 10 years b. Computed tomography (CT) colonography every 5 years
iii. CRC detection tests should be offered when colonoscopy is not feasible a. Fecal immunochemical test (FIT) annually b. Fecal DNA testing very 3 years
B. Chemoprevention i. Aspirin1,13-14
a. Clinical trial and observational data suggest reduction of CRC risk with doses as low as 325 mg daily
b. Secondary analyses of cardiovascular trials suggest that doses as low as 81 mg daily may be effective in CRC risk reduction
c. Benefits of aspirin for CRC risk reduction are counterbalanced by the risk of gastrointestinal adverse effects
d. The United States Preventative Service Task Force (USPSTF) recommends low-dose aspirin for primary prevention of CRC in adults with all of the following:
1. Ages 50 to 59 2. With >10% cardiovascular disease risk 3. Not at an increased risk for bleeding 4. With life expectancy of at least 10 years 5. Willing to take low-dose aspirin daily for at least 10 years
ii. Vitamin D1,3,10,15 a. Binds to receptors found in colon cancer cell-lines to activate or repress gene
expression, leading to antineoplastic properties b. Meta-analyses have shown an inverse linear relationship between vitamin D levels
and CRC mortality c. Current National Comprehensive Cancer Network (NCCN) guidelines do not
recommend routine screening for vitamin D deficiency or supplementation of vitamin D in patients with CRC
C. Lifestyle modification1 i. Prevention of modifiable risk factors such as obesity
ii. Reduction or cessation of modifiable risk factors such as smoking and alcohol consumption
IV. Signs and symptoms16 A. Changes in bowel habits B. Dark or bloody stool C. Rectal bleeding D. Abdominal pain
E. Weight loss F. Weakness and fatigue G. Intestinal obstruction or perforation
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V. Diagnosis and staging1,3 A. Diagnosis is determined histologically by biopsy sample taken during endoscopy
i. Complete colonoscopy or CT colonography is required to detect any synchronous cancers ii. Additional imaging is required to rule out distant metastases, which is found in
approximately 20% of newly diagnosed cases of CRC a. The liver is the most common site of metastasis b. Routine imaging for lung metastases is also recommended
B. TNM classification (Appendix A) i. T = local invasion depth
ii. N = lymph node involvement iii. M = distant metastases
C. Stage III is indicative of locally advanced disease while stage IV is indicative of metastatic disease
Treatment of Colon Cancer
VI. Surgery – cornerstone of resectable CRC treatment1,3,10 A. Resection of affected segment of bowel, adjacent mesentery, and draining lymph nodes B. Open vs. laparoscopic colectomy approach
i. Laparoscopic colectomy is non-inferior to open colectomy with similar rates of intraoperative complications and postoperative mortality
ii. Laparoscopic colectomy is associated with shorter perioperative recovery, hospital stay, and duration of narcotic and analgesic use
iii. Open colectomy recommended over laparoscopic colectomy in complicated disease (acute obstruction, acute perforation, or locally invasive disease into surrounding structures)
C. Anastomosis vs. colostomy17-18 i. Despite a goal of tension-free primary anastomosis during colectomy, colostomy may be
required in complicated cases of colonic perforation or obstruction ii. Primary anastomosis cannot be performed in the setting of:
a. Diffuse peritonitis b. Free perforation – spilling of bowel contents freely into the abdominal cavity leading
to diffuse peritonitis c. Obstructing left-sided colon cancer – high bacterial counts in the feces-containing
left colon may lead to increased rates of sepsis D. Timing of ostomy closure19
i. Stoma closure typically occurs 6 to 12 weeks after initial surgery, but timing is dependent on resolution of contributing indications for colostomy
ii. When indicated, adjuvant chemotherapy should be completed before ostomy closure to prevent delays in chemotherapy treatment due to surgical complications
VII. Adjuvant therapy – treatment after surgical tumor resection1,3,10 A. Risk for relapse exists after surgical resection of macroscopic disease
iii. Stage III colon cancer recurrence risk is estimated to range between 15% and 50% iv. Adjuvant therapy can reduce risk of recurrence by 40% to 50% in high-risk patients v. Six months of adjuvant chemotherapy is recommended for all patients with stage III colon
cancer without contraindications after curative resection vi. Adjuvant therapy may be considered in high-risk stage II colon cancer
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Table 1. Adjuvant Chemotherapy Treatment Options in Colon Cancer10
Regimen Components
mFOLFOX6 – every 2 weeks x 24 weeks (12 cycles)
Oxaliplatin 85 mg/m2 IV on day 1
Leucovorin 400 mg/m2 IV on day 1
5-FU 400 mg IV bolus then 1200 mg/m2/d x 2 days (total 2400 mg/m2 over 46-48 hours) continuous IV infusion
CapeOx – every 3 weeks x 24 weeks (8 cycles)
Oxaliplatin 130 mg/m2 IV on day 1
Capecitabine 1000 mg/m2 PO twice daily on days 1-14
FLOX – every 8 weeks x 24 weeks (3 cycles)
5-FU 500 mg/m2 IV bolus weekly x 6 weeks
Leucovorin 500 mg/m2 IV weekly x 6 weeks
Oxaliplatin 85 mg/m2 IV on weeks 1, 3, and 5
5-fluorouracil/leucovorin (5-FU/LV)– every 8 weeks x 24 weeks (4 cycles) or every 2 weeks (12 cycles)
Leucovorin 500 mg/m2 IV over 2 hours weekly x 6 weeks
5-FU 500 mg/m2 IV over 1 hour after start of leucovorin weekly x 6 weeks
Simplified biweekly regimen:
Leucovorin 400 mg/m2 IV on day 1
5-FU bolus 400 mg/m2 then 1200 mg/m2/d x 2 days (total 2400 mg/m2 over 46-48 hours) continuous IV infusion
Capecitabine – every 3 weeks x 24 weeks (8 cycles)
Capecitabine 1000-1250 mg/m2 PO twice daily on days 1-14
B. Landmark trials20-24 i. Several trials have established the efficacy of 6 months of 5-fluorouracil and leucovorin (5-
FU/LV) adjuvant treatment in stage III colon cancer ii. MOSAIC – demonstrated superiority of 6 months of FOLFOX adjuvant therapy over 5-FU/LV
alone and established FOLFOX as the standard of care in stage III colon cancer iii. XELOXA – established superiority of 6 months of CapeOx adjuvant therapy over 5-FU/LV
alone and established CapeOx as the standard of care in stage III colon cancer
Table 2. Landmark Trials for Adjuvant Chemotherapy in Colon Cancer23-24
Landmark trial Outcomes Results
MOSAIC23
FOLFOX4 vs. 5-FU/LV
N=1,123 patients with stage II/III colon cancer
Primary: 5-year disease-free survival (DFS) Secondary: adverse effects, 6-year overall survival (OS)
Primary: - Stage II and III: 66.4% vs. 58.9%; HR 0.78; 95%CI 0.65 to 0.93; p=0.005) Secondary: - Grade 3 peripheral sensory neuropathy: 12.5% vs. 0.2% - Secondary cancers: 5.5% vs. 6.1% - Overall 6-year survival in stage II and III disease: 72.9% vs. 68.7% (HR 0.80; 95%CI 0.65 to 0.97; p=0.023)
XELOXA24
CapeOx vs. bolus 5-FU/LV
N=1886 patients with surgically respective stage III colon cancer
Primary: DFS Secondary: OS, relapse-free survival (RFS), and safety
Primary: - DFS: 68.7% vs. 62.5%; HR 0.8 (95%CI 0.69 to 0.93, p = 0.0045) - 5-year DFS: 66.1% (95%CI 62.9% to 69.4%) vs. 59.8 (95%CI 56.4% to 63.1%) Secondary: - OS after median 57 months: 79.1% vs. 77.1%; HR 0.87 (95%CI 0.72 to 1.05, p=0.1486) - RFS: HR 0.78 (95%CI 0.67 to 0.92, p=0.0024) - Grade 3 or 4 adverse events: 55% vs. 47% - Grade 3 or 4 neurosensory toxicity: 11% vs. <1%
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VIII. Current guidelines recommendations A. NCCN guidelines10
i. FOLFOX or CapeOx recommended over 5-FU/LV in stage III colon cancer a. FLOX is acceptable alternative to FOLFOX, but requires weekly administration b. Capecitabine is considered equivalent to 5-FU/LV in stage III colon cancer
ii. Duration of adjuvant treatment is 6 months a. FOLFOX – every 2 weeks for 12 cycles b. FLOX – 8-week cycles for 3 cycles c. CapeOx – every 3 weeks for 8 cycles
iii. Benefit of oxaliplatin in combination with 5-FU/LV in patients ages >70 years is not established due to exclusion of this population in landmark trials
B. Oxaliplatin tolerability i. Common adverse effects23,25
a. Fatigue b. Myelosuppression c. Diarrhea d. Renal toxicity e. Peripheral neuropathy (Appendix B)
1. Reported in 92.1% of all patients in the MOSAIC trial 2. Grade 3 neurotoxicity occurred in 12% of patients in the MOSAIC trial 3. Grade 1 or 2 neurotoxicity occurred in approximately 50% of patients during
the second post-treatment year in the MOSAIC trial C. Considerations
i. Suboptimal completion rates23,26 a. In the MOSAIC trial, 25.3% of patients did not complete the full 12 cycles of FOLFOX,
with a median oxaliplatin dose of 810 mg/m2 (9.5 cycles) b. In the XELOXA trial, 31% of patients did not complete the planned number of cycles c. Abrams et al. described a 26.9% discontinuation rate of FOLFOX or CapeOx after < 3
months in a population-based cohort study of 1,842 patients 1. Median duration of oxaliplatin based therapy was 5.6 months 2. Patients receiving CapeOx were nearly twice as likely to discontinue adjuvant
therapy (OR 1.94, 95%CI 1.38 to 2.71) ii. Average wholesale price (AWP) based on average body surface area of 1.9 m2 per cycle27
a. Oxaliplatin 1. Based on mFOLFOX6 requirements of 85 mg/m2/cycle: $329.46 2. Based on CapeOx requirements of 130 mg/m2/cycle: $503.88
b. 5-FU - based on mFOLFOX6 requirements of 2800 mg/m2/cycle (bolus plus continuous infusion): $32.76
c. Capecitabine - based on CapeOx requirements of 28,000 mg/m2/cycle: $4,381.29 d. Leucovorin - based on mFOLFOX6 requirements of 400 mg/m2/cycle: $57.60 e. Estimated cost of FOLFOX per cycle: $419.82 f. Estimated cost of CapeOx per cycle: $5304.99
iii. Other Costs28 a. Sterile compounding cost b. Infusion room costs c. Continuous infusion pump costs d. Follow-up cost
iv. Treatment duration reduction has the potential to proportionally decrease all costs
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IX. Clinical Question A. Does reduced oxaliplatin-based adjuvant therapy duration result in worsened patient outcomes for
stage III colon cancer patients? B. What is the optimal treatment duration of adjuvant therapy in stage III colon cancer?
Literature Review
Kumar A, Peixoto RD, Kennecke HF, et al. Effect of Adjuvant FOLFOX Chemotherapy Duration on Outcomes of Patients With Stage III Colon Cancer. Clin Colorectal Cancer. 2015;14(4):262-8.e1.29
Objective • Determine effect of FOLFOX completion on overall survival (OS) and DFS • Determine predictive factors of therapy completion • Characterize FOLFOX completion rates
Study Design Retrospective population-based analysis of patients receiving adjuvant FOLFOX for stage III colon cancer from the British Columbia Cancer Agency
Enrollment Inclusion:
Curative resection for stage III colon cancer between 2006 to 2010
Started at least one cycle of FOLFOX within 12 weeks of surgery
Managed at one of five British Columbia Cancer Agency comprehensive cancer centers
Exclusion:
Patients initiating FOLFOX beyond 12 weeks from surgery
Synchronous or previous colon cancer
Histological diagnosis other than adenocarcinoma
Treatment with neoadjuvant therapy
Interventions Completion or incompletion of adjuvant FOLFOX (>10 or <10 cycles of treatment after curative resection, respectively)
Endpoints Covariates evaluated:
Patient demographic
Clinical tumor characteristics
Pathological tumor characteristics
Timing of adjuvant chemotherapy initiation after surgery
Length of postoperative hospitalization
Primary outcomes:
OS, defined as time interval between date of colon cancer diagnosis and date of death from any cause
DFS, defined as time interval between date of colon cancer diagnosis and date of recurrence or death due to colon cancer
Study Sample
Median age – 62 years; IQR 26 to 80 years
Median follow up – 4.2 years
Median number of cycles in <10 cycles group: 7 cycles
Table 3. Demographic information
Variable All patients <10 cycles >10 cycles p-value
Total – n (%) 616 183 (29.7) 433 (70.3) 0.25
Sex – n (%) Female Male
295 (47.9) 321 (52.1)
72 (24.4)
111 (34.6)
223 (75.6) 210 (65.4)
0.008
Obstruction/Perforation – n (%) No Yes
530 (86.4)
86 (14)
149 (28.1) 34 (39.5)
381 (71.9) 52 (60.5)
0.04
Nodal Stage – n (%) N1 N2
522 (84.7) 94 (15.3)
97 (26.1) 86 (35.1)
274 (73.9) 159 (64.9)
0.02
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Statistics Chi-square and Fisher’s exact tests for differences in baseline parameters
Kaplan-Meier method for OS and DFS estimation
Multivariate Cox proportional hazard regression models for relationship between chemotherapy cycles received and survival outcomes
Multivariate logistic regression models to find predictors of treatment completion
Results No difference in 3-year DFS (77% vs. 78%, p=0.99) or 5-year OS (81% vs. 81%, p=0.995)
Table 4. Multivariate Logistic Regression Predicting for >10 Cycles of Treatment
Variable Odds ratio (OR) 95%CI p
Sex, Female vs. Male 1.61 1.12-2.31 0.01
Performance Status, 0-1 vs. 2-3 1.10 0.50-2.28 0.81
Obstruction/Perforation, No vs. Yes 1.82 1.08-3.05 0.02
T Stage T3 vs. T1/T2 T4 vs. T1/T2
0.91 0.74
0.52-1.62 0.37-1.48
0.73 0.39
N Stage, N1 vs. N2 1.46 1.01-2.13 0.05
Table 5. Multivariate Cox Regression for Overall and Disease-Free Survival
Overall Survival Disease-Free Survival
Variable HR [95%CI] p HR [95%CI] p
Cycles of FOLFOX, >10 vs. <10 1.07 [0.7-1.61] 0.76 1.16 [0.82-1.63] 0.4
Age, >70 vs. <70 1.46 [1.00-2.15] 0.05 1.06 [0.77-1.45] 0.74
Site of Disease, left vs. right 1.33 [0.9-1.97] 0.15 1.42 [1.04-1.96] 0.03
Obstruction/perforation 1.47 [0.9-2.42] 0.13 1.95 [1.33-2.85] <0.001
T Stage T3 vs. T1/T2 T4 vs. T1/T2
2.20 [0.87-5.51] 4.44 [1.69-11.65]
0.09 0.002
2.31 [1.11-4.80] 3.72 [1.71-8.09]
0.02 <0.001
N stage, N2 vs. N1 1.84 [1.24-2.72] 0.002 1.95 [1.42-2.70] <0.0001
Postoperative stay, >7 vs. <7 1.19 [0.73-1.95] 0.49 1.47 [1.00-2.17] 0.049
Author’s Conclusions
Most stage III colon cancer patients completed >10 cycles of adjuvant FOLFOX chemotherapy after curative resection
Female patients and those without obstruction or perforation were significantly more likely to complete planned treatment
Less nodal burden demonstrated a trend for higher likelihood of completing treatment
No difference in DFS or OS for patients who did and did not complete adjuvant therapy
Critique Strengths
Real-world population-based analysis of FOLFOX tolerability and outcomes
Similar rate of FOLFOX incompletion as MOSAIC trial (29.7% vs. 25.3%) Limitations
Retrospective, nonrandomized design and unequally distributed groups, with more patients receiving >10 cycles
Does not evaluate outcome differences between the guideline-recommended 12 cycles vs. <12 cycles due to a median of 10 cycles administered in previous trials23
Inability to measure dose reductions or delays
Application Treatment durations less than the standard 12 cycles may not affect patient outcomes
A median number of 7 cycles appears to yield no difference in outcomes
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Tsai YJ, Lin JK, Chen WS, et al. Adjuvant FOLFOX treatment for stage III colon cancer: how many cycles are enough? Springerplus. 2016;5(1):1318.30
Objective To determine the appropriate number of adjuvant FOLFOX treatment cycles needed to reduce adverse effects and cost while maintaining efficacy for the treatment of stage III colon cancer
Study Design Retrospective observational stratified cohort study at Taipei Veterans General Hospital
Enrollment Inclusion:
Treated for stage III colon cancer between June 2005 and June 2012
History of curative resection and at least one cycle of adjuvant FOLFOX chemotherapy
Exclusion:
Cases with rectum and recto-sigmoid junction primary colon tumor sites
Interventions mFOLFOX6 every 2 weeks
Endpoints Primary outcomes:
OS, defined as time interval between date of operation to date of death from any cause
DFS, defined as time interval between date of operation to date of either colon cancer recurrence or death
Study Sample
Total of 213 cases included out of 692 cases in patient database of stage III CRC o 210 cases excluded for inadequate data or lack of follow up o 49 cases excluded for not receiving chemotherapy o 220 cases excluded for receiving chemotherapy other than FOLFOX
Median age – 61.7 years old; range 29-88
Median follow up – 54 months
No patients received neoadjuvant chemotherapy or radiotherapy
Table 6. Demographic Information
Variable (n=213) N (%)
Age – n (%) <70 years >70 years
152 (71.4) 61 (28.6)
Sex – n (%) Men 114 (54.5) Women 99 (45.5)
Lymph nodes harvested – n (%) Lymph nodes <12 Lymph nodes >12
19 (8.9) 194 (91.1)
T Stage – n (%) T1-3 193 (90.6) T4 20 (9.4)
Statistics Kaplan-Meier method and stratified two-sided log-rank test were used to determine significance for survival analyses with each cycle number
Univariate Cox regression analyses for every demographic factor if a difference was reached
Multivariate Cox regression performed for all factors resulting in p-value <0.2 to determine if the number of cycles received was an independent prognostic factor
Results
5-year overall survival rate: 77.9%
5-year cancer specific survival rate: 82.2%
3-year disease free survival: 76.7%
Recurrence rate: 26.3%
Table 6. Demographic Information (cont.)
Variable (n=213) N (%)
Nodal Stage – n (%) N1 N2
128 (60.1) 85 (39.9)
Time to treatment – n (%) <8 weeks 203 (95.3) >8 weeks 10 (4.7)
Obstruction/perforation – n (%)
35 (16.4)
Performance Status – n (%) 0 193 (90.6) 1 17 (8) 2 3 (1.4)
Maintenance treatment - % >90
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Results (cont.)
Reasons for oxaliplatin discontinuation included intolerance of adverse effects (AE) (50.5%), avoidance of future AE (23.3%), disease progression (16.8%), and unknown reasons (9.5%)
Table 7. Survival Analysis Based on FOLFOX Cycle Completion
FOLFOX cycles
N (total =213) % Cumulative percentage (%)
OS p-value
DFS p-value
6 29 13.6 29.1 >0.05 >0.05
7 5 2.3 31.5 >0.05 <0.05
8 9 4.2 35.7 <0.05 <0.05
9 7 3.3 39.0 0.07 <0.05
10 10 4.7 43.7 <0.05 <0.05
11 2 0.9 44.6 <0.05 <0.05
12 118 55.4 100 0.06 <0.05
Table 8. Multivariate Survival Analysis Stratified by 8 Cycles for Overall Survival
Univariate COX regression
Multivariate logistic regression
Variable HR [95%CI] p-value HR [95%CI] p-value
T stage, 4 vs. 1-3 1.77 [0.79-3.97] 0.17 1.21 [0.51-2.89] 0.67
Performance Status, 1-2 vs. 0 2.08 [0.93-4.66] 0.08 1.91 [0.83-4.40] 0.13
Cycles of FOLFOX, >8 vs. <8 0.54 [0.3-0.99] 0.043 0.52 [0.28-0.97] 0.038
Lymph nodes, >12 vs. <12 3.1 [0.75-12.89] 0.12 2.9 [0.68-12.31] 0.15
Obstruction/perforation, yes vs. no 1.92 [0.99-3.73] 0.053 1.41 [0.68-2.93] 0.36
Table 9. Multivariate Survival Analysis Stratified by 7 Cycles for Disease-Free Survival
Univariate COX regression
Multivariate logistic regression
Variable HR [95%CI] p-value
HR [95%CI] p-value
T stage, 4 vs. 1-3 1.63 [0.7-3.81] 0.26 -- --
Performance Status, 1-2 vs. 0 1.07 [0.43-0.68] 0.89 -- --
Cycles of FOLFOX, >7 vs. <7 0.56 [0.32-0.97] 0.04 0.57 [0.33-0.996] 0.048
Lymph nodes, >12 vs. <12 0.67 [0.3-1.48] 0.32 -- --
Time to treatment, >8 vs. <8 weeks 2.22 [0.03-6.15] 0.12 2.2 [0.73-5.64] 0.18
Obstruction/perforation, yes vs. no 1.52 [0.78-2.96] 0.21 -- --
Author’s Conclusions
OS survival benefits were significantly different with at least 8 cycles of adjuvant FOLFOX therapy, but this difference was not consistent with each subsequent cycle
DFS survival benefits were consistently different from 7 to 12 cycles of adjuvant FOLFOX therapy
Cycle number is an independent prognostic factor of overall survival (8 cycles) and disease-free survival (7 cycles)
Critique
Strengths
Analysis performed at each cycle number to determine optimal cycle requirements
Reported 6-year OS rate (72.6%) and 3-year DFS (75.6%) were similar to the OS and DFS in the MOSAIC trial (72.9 and 78.2%, respectively)
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Critique (cont.)
Limitations
The 55.4% completion rate of 12 cycles of FOLFOX is higher than rates observed in previous studies, but lower than the 74.7% observed in the MOSAIC trial23,31
Lack of head-to-head comparison between cycle numbers to determine survival benefit
Limited statistical power due to unequal patient distribution in each cycle number stratus
Maintenance with 5-FU based treatments to finish 6 months of therapy by >90% of patients after oxaliplatin disruption may confound results
Inability to measure dose reductions or delays
Application At least 7 cycles of adjuvant FOLFOX should be administered for similar survival benefits seen in landmark trials
Pending Literature
X. International Duration Evaluation of Adjuvant Chemotherapy (IDEA) Collaboration32-35 A. Publicly-funded international initiative comprised of six independently conducted trials designed to
answer the clinical question of reduced adjuvant therapy duration in stage III colon cancer B. Abstracts for TOSCA, SCOT, IDEA France, and IDEA pooled analysis presented at ASCO Meeting 2017
Table 10. IDEA Collaboration Trial Details33
Trial name – location Treatment regimens used Stage III colon cancer patients (n)
TOSCA – Italy CapeOx or FOLFOX4 2402
SCOT – United Kingdom, Denmark, Spain, Australia, Sweden, New Zealand
CapeOx or mFOLFOX6 3983
IDEA France – France CapeOx or mFOLFOX6 2010
CALGB/SWOG – United States, Canada mFOLFOX6 2440
HORG – Greece CapeOx or FOLFOX4 708
ACHIEVE – Japan CapeOx or mFOLFOX6 1291
XI. Abbreviated Abstract Review
Iverson T, Kerr R, Saunders MP, et al. Final DFS results of the SCOT study: An International Phase III Randomised (1:1) Non-inferiority Trial comparing 3 versus 6 months of oxaliplatin based adjuvant chemotherapy for colorectal cancer. J Clin Oncol. 2017; 35 Suppl 15: 3502.34
Objective To determine whether 3 month adjuvant oxaliplatin-based in high risk stage II/stage III colon cancer is as effective as 6 months of treatment
Study Design Non-inferiority prospective randomized study
Interventions 3 vs. 6 months of mFOLFOX6 or CapeOx
Endpoints 3-year DFS
Study Sample
N = 6088 patients with stage III/high risk stage II colon cancer o FOLFOX – 1981 patients (32.5%) o CapeOx – 4107 patients (67.5%) o Males – 3653 patients (60%)
Median age – 65
Statistics Noninferiority defined as <2.5% fall in 3-year DFS in the 3 month arm vs. 6 months arm
Hazard ratio upper limit of 1.13 for noninferiority
90% power at the 2.5% 1-sided level of statistical significance with goal of 9500 patients and 2750 DFS events
Cox model analysis adjusted for study minimization
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Results Study power of 66% based on 1469 DFS events
Per test for heterogeneity, results between CapeOx and FOLFOX groups were similar (p=0.059), although a trend for improved outcomes with CapeOx was suggested
Table 11. Study Outcomes
3 month treatment 6 month treatment HR [95%CI, p-value]
DFS event, no. 734 735 --
3-year DFS, % 76.8 77.4 1.008 [0.910 – 1.117, 0.014]
Author’s Conclusions
3 months of adjuvant oxaliplatin based therapy is noninferior to 6 months of treatment
Critique Large sample size, with majority treated with CapeOx
Underpowered at 66% but still found noninferiority of 3 vs. 6months of adjuvant treatment
Included rectal cancer patients, in which treatment strategy differs from CRC
Inclusion of high risk stage II colon cancer patients in addition to stage III colon cancer
Application 3 months of oxaliplatin-based adjuvant therapy (primarily FOLFOX) is non-inferior to 6 months of adjuvant therapy high-risk stage II/stage III colorectal patients
Sobrero AF, Lonardi S, Rosati G, et al. FOLFOX4/CAPOX in stage II-III colon cancer: efficacy results of the Italian Three or Six Colon Adjuvant trial TOSCA. J Clin Oncol. 2017; 35 Suppl: 3501.35
Objective To determine whether 3 month adjuvant oxaliplatin-based in high-risk stage II/stage III colon cancer is as effective as 6 months of treatment
Study Design Open label, phase III, multicenter, non-inferiority trial
Interventions 3 vs. 6 months of FOLFOX4 or CapeOx
Endpoints Relapse free survival (RFS)
Study Sample
N = 3759 patients with high risk stage II/stage III colon cancer o 64% and 36% of patients received FOLFOX4 and CapeOx, respectively o 65.3% of patients with stage III disease
Statistics Analysis performed with 82% of planned events, with power of 72%
Noninferiority confidence interval upper limit of 1.2
Results Total of 772 RFS events observed
Median DFS follow up: 62 months
8-year RFS rate: 75%
3 month vs. 6 month RFS event HR: 1.14 (95%CI 0.99-1.31, p=0.253)
Completion rate (including dose reductions and delays): 52% vs. 44% for 3 vs. 6 months
Author’s Conclusions
Noninferiority of 3 months of oxaliplatin-based adjuvant treatment compared to 6 months was not demonstrated
Reported small absolute difference in RFS (<3% at 5 years) warrants risk/benefit analysis for 6 months vs. 3 months of adjuvant treatment
Critique Large sample size, with majority treated with FOLFOX
Long follow-up period (8 years)
Limited power <80%
Accounted for dose reduction and delays, but resulted in low completion rates
Inclusion of high-risk stage II colon cancer patients
Application 3 months of oxaliplatin-based adjuvant therapy (primarily FOLFOX) may not be equivalent to 6 months of adjuvant therapy high-risk stage II/stage III colon cancer
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Andre T, Bonnetain F, Mineur L. Three versus six months adjuvant oxaliplatin-based chemotherapy for patients with stage III colon cancer: The French participation to the International Duration Evaluation of Adjuvant chemotherapy (IDEA) project. J Clin Oncol. 2017; 35 Suppl: 3500.36
Objective To determine whether 3 month adjuvant oxaliplatin-based in stage III colon cancer is as effective as 6 months of treatment
Study Design Prospective randomized cohort study
Interventions 3 vs. 6 months of mFOLFOX6 or CapeOx
Endpoints DFS
Study Sample
N = 2022 patients with stage III colon cancer o 2010 patients received oxaliplatin based therapy, with 90% and 10% receiving
mFOLFOX6 and CapeOx, respectively o 49.9% and 50.1% of patients received 3 and 6 months of therapy, respectively o 99.5% of patients with stage III disease
N1: 74.9% N2: 25.2%
Median age 63.9 years
Statistics Kaplan-Meier method for 3-year DFS estimation and analysis
Results
Total 578 DFS events
Median follow up: 50.2 months Table 12. Study Outcomes
3 months (N=1003)
6 months (N=1007)
HR [95%CI, p-value]
DFS event, no. 314 264 --
3-year DFS, % 72.1 75.7 1.24 [95%CI 1.05-1.46, 0.0069]
mFOLFOX6, 3-year DFS, % 72 76.3 1.27 [95%CI 1.07-1.51, 0.0069]
Median oxaliplatin dose intensity, % (mg/m2)
96.9 (495) 72.1 (735.1) --
Completion rate, % 94.2 78 --
Max neuropathy grade, % 3-4
7.9
25.3
p < 0.0001
Author’s Conclusions
6 months of adjuvant treatment with oxaliplatin based therapy in stage III colon cancer is superior to 3 months of adjuvant treatment
Critique Large sample size, with majority treated with FOLFOX
Evaluated stage III colon cancer patients only
Application 6 months of adjuvant treatment with oxaliplatin based therapy in stage III colon cancer is superior to 3 months of adjuvant treatment at the cost of increased neuropathy
Shi Q, Sobrero AF, Shields AF, et al. Prospective Pooled Analysis of Six Phase III Trials Investigating Duration of Adjuvant Oxaliplatin-based therapy (3 vs. 6 months) for Patients with Stage III Colon Cancer: The IDEA (International Duration Evaluation of Adjuvant Chemotherapy) Collaboration. Paper presented at: 2017 American Society of Clinical Oncology (ASCO) Annual Meeting; June 2-6, 2017; Chicago, IL. 33
Objective To evaluate non-inferiority of 3 months compared with 6 months of adjuvant oxaliplatin-based treatment in stage III colon cancer
Study Design Prospective, non-inferiority, pooled analysis of individual patient data from six concurrently conducted phase III randomized trials
Interventions 3 vs. 6 months of FOLFOX or CapeOx
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Endpoints DFS, defined as time from date of randomization to earliest date of relapse, secondary colorectal primary tumor, or death from all causes
Study Sample
N = 12,834 patients with stage III colon cancer
Statistics HR and two-sided 95% CI estimated by Cox model, with an initial HR noninferiority upper limit of 1.10 and 4,700 planned DFS events
Modification of target noninferiority margin to 1.12 due to inadequate DFS events at preplanned interim analysis
90% power at the 2.5% 1-sided level of statistical significance with 3,400 planned DFS events
Preplanned subgroup analyses: regimen and risk group (T/N stage)
Results 3-year DFS for 3 vs. 6 months treatment: 74.6% vs. 75.5% (HR 1.07, 95%CI 1.00 to 1.15)
Table 15. Study Outcomes
Efficacy Outcome 3 vs. 6 months HR [95%CI] p-value
DFS by risk group T1-3 N1 T4 or N2
1.01 [0.9 to 1.12] 1.12 [1.03 to 1.23]
0.11
DFS by regimen FOLFOX CapeOx
1.16 [1.06 to 1.26] 0.95 [0.85 to 1.06]
0.0051
DFS by risk group and regimen T1-3N1, FOLFOX T1-3N1, CapeOx
T4 or N2, FOLFOX T4 or N2, CapeOx
1.10 [0.96 to 1.26] 0.85 [0.71 to 1.01] 1.20 [1.07 to 1.25] 1.02 [0.89 to 1.17]
--
Table 16. Safety Outcomes
Regimen FOLFOX CapeOx
Duration 3 months
6 months
p-value 3 months
6 months
p-value
Overall adverse events grade, % 2 3-4
32 38
32 57
<0.001 41 24
48 37
<0.001
Neurotoxicity grade, % 2 3-4
14 3
32 16
<0.001 12 3
36 9
<0.001
Table 14. Demographic Information
Variable (n=12,834) %
Total DFS events 3263 (96% of planned)
Performance Status ECOG 0/1
79/21
Nodal Involvement N1/N2
72/28
T Stage T1-2/T3/T4
13/66/21
Treatment regimen FOLFOX/ CapeOx
60/40
Table 13. Study Characteristics
Study Name T4 disease (%)
Median follow-up (months)
TOSCA 12 62
SCOT 29 37
IDEA France 18 51
CALGB/SWOG 15 35
HORG 14 48
ACHIEVE 28 37
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Results (cont.)
Table 17. Compliance Outcomes
Regimen FOLFOX CapeOx
Duration 3 months (N=3870)
6 months (N=3893)
3 months (N=2554)
6 months (N=2517)
Mean oxaliplatin dose intensity, % (SD)
91.4 (19.9) 72.8 (25.6) 89.8 (21.7) 69.3 (28.3)
Completion rate, % 90 71 86 65
Author’s Conclusions
3 months of adjuvant treatment is associated with greater treatment compliance and lower neurotoxicity compared to 6 months
DFS non-inferiority of 3 months compared to 6 months with adjuvant therapy could not be established in stage III colon cancer
DFS subanalyses suggest non-inferiority in DFS with 3 months compared to 6 months of treatment in patients with T1-3 N1 disease, patients treated with CapeOx, and patients with T1-3 N1 disease treated with CapeOx
A 0.9% absolute reduction of DFS benefit must be weighed against greater than twice the risk of neurotoxicity
Critique Individual studies contained varying proportions of patients treated with CapeOx, introducing potential for heterogeneity in outcomes and selection bias
Study was not powered for DFS analysis stratified by regimen or disease staging
Noninferiority margin modification due to inadequate DFS events may confound results
Application In stage III colon cancer patients, 3 months of FOLFOX or CapeOx adjuvant chemotherapy does not demonstrate DFS non-inferiority compared to 6 months
Recommendations
XII. Recommendations A. A shortened treatment duration of 3 months should not be recommended over 6 months of
adjuvant oxaliplatin-based therapy B. Shortened treatment duration should ultimately be dictated by tolerability or patient preference C. Shortened treatment may be more appropriately considered in patients with T1-3 N1 disease D. A goal of at least 7 cycles of FOLFOX may be associated with similar survival outcomes29-30
Conclusion
XIII. Future Directions A. Pending full IDEA, TOSCA, SCOT and IDEA France publications B. Pending other IDEA collaboration individual trial abstracts and publications C. Pending long-term OS data from individual trials and overall IDEA collaboration pooled analysis D. Individual IDEA collaboration study data may better describe patient populations and identify those
that would most benefit from 3-month adjuvant therapy E. Further trials are needed to investigate a suggested difference in outcomes between various risk
groups and regimens (T1-3 N1 and T4 or N2 disease; FOLFOX and CapeOx) XIV. Summary
A. Adjuvant therapy is crucial in delaying recurrence and extending OS in stage III colon cancer10 B. Current guidelines recommend six months of oxaliplatin-based adjuvant therapy in high-risk stage II
and stage III colon cancers10 C. Oxaliplatin-based adjuvant chemotherapy regimens are not well tolerated or completed by many
patients, primarily due to neurological adverse effects23,25-26
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D. Available retrospective and prospective data suggest that a complete 6 months of adjuvant therapy is not necessary for sustained survival benefit29-30,35-36
E. Prospective trials failed to establish non-inferiority of 3 months compared to 6 months of oxaliplatin-based adjuvant therapy in stage III colon cancer33
F. Decisions to shorten the duration of adjuvant oxaliplatin-based therapy in stage III colon cancer should be dictated by drug intolerability or patient preference and consider the value of decreased neurotoxicity at the cost of decreased DFS
References
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Appendix A. Colorectal Cancer Anatomy and Classification
Table 18. Classification of colorectal cancer per TNM classification system1
T Stage – local invasion depth
Tx No information about local tumor infiltration available
Tis Tumor restricted to mucosa, no infiltration of lamina muscularis mucosa
T1 Infiltration of lamina muscularis mucosa into submucosa, no infiltration of lamina muscularis propria
T2 Infiltration into, but not beyond, lamina muscularis propria
T3 Infiltration into subserosa or non-peritonealised pericolic or perirectal tissue, or both; no infiltration of serosa or neighboring organs
T4a Infiltration of the serosa
T4b Infiltration of neighboring tissues or organs
N Stage – lymph node involvement
Nx No information about lymph node involvement available
N0 No lymph node involvement
N1a Cancer cells detectable in 1 regional lymph node
N1b Cancer cells detectable in 2–3 regional lymph nodes
N1c Tumor satellites in subserosa or pericolic or perirectal fat tissue, regional lymph nodes not involved
N2a Cancer cells detectable in 4–6 regional lymph nodes
N2b Cancer cells detectable in 7 or greater regional lymph nodes
M stage – presence of distant metastases
Mx No information about distant metastases available
M0 No distant metastases detectable
M1a Metastasis to 1 distant organ or distant lymph nodes
M1b Metastasis to more than 1 distant organ or set of distant lymph nodes or peritoneal metastasis
https://s-media-cache-ak0.pinimg.com/564x/52/6d/df/526ddfe33820cf8dd54a61526e516f73.jpg
Figure 2. Gastrointestinal Wall Anatomy
Blood vessels
Mesentery Nerve
Serosa Connective tissue
Peritoneum
Myenteric plexus Submucosal plexus
Intramural plexus
Circular muscle layer Longitudinal muscle layer
Submuscosa
Gland in submucosa
Duct from gland
Lymph node
Mucosa
Mucous epithelium Lamina propria Muscularis mucosae
Muscularis
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Table 19. Union Internationale Contre le Cancer/American Joint Committee on Cancer Stage Classification of Colorectal Cancers1
T N M
Stage 0 Tis N0 M0
Stage I T1/T2 N0 M0
Stage II IIA IIB IIC
T3/T4 T3 T4a T4b
N0 N0 N0 N0
M0 M0 M0 M0
Stage III IIIA IIIB IIIC
Any T1-T2 T1 T3-T4a T2-T3 T1-T2 T4a T3-T4a T4b
N+ N1 N2a N1 N2a N2b N2a N2b N1-N2
M0 M0 M0 M0 M0 M0 M0 M0 M0
Stage IV IVA IVB
Any Any Any
Any Any Any
M+ M1a M2b
Appendix B. Peripheral Motor Neuropathy Severity
Table 20. Common Terminology Criteria for Adverse Events (CTCAE) peripheral motor neuropathy grading37
Grade 1 Asymptomatic; clinical or diagnostic observations only; intervention not indicated
Grade 2 Moderate symptoms; limiting instrumental activities of daily living (ADL)
Grade 3 Severe symptoms; limiting self-care ADL; assistive device indicated
Grade 4 Life-threatening consequences; urgent intervention indicated
Grade 5 Death